CN212706022U - Multi-station grinding device for plate glass - Google Patents

Abstract

The utility model relates to a glass processing equipment field especially relates to a sheet glass's multistation grinder. The utility model adopts the following technical scheme: the utility model provides a sheet glass's multistation grinder, includes glass transport mechanism and grinding mechanism, and glass transport mechanism top is provided with fixed frame, grinding mechanism includes left side grinding head, right side grinding head and first horizontal grinding head, the left side grinding head sets up in the left side of glass transport mechanism middle-end through fixed frame, and the right side grinding head sets up in the right side of glass transport mechanism middle-end through fixed frame, and first horizontal grinding head is connected by a horizontal actuating mechanism drive, and a horizontal actuating mechanism sets up in fixed frame. The utility model has the advantages that: the edge of the glass is ground by the left and right grinding heads and the transverse grinding head arranged on the glass transmission mechanism, so that the efficiency of grinding the edge of the glass can be greatly improved, the control of an operator is facilitated, and the processing quality is improved.

Description

Multi-station grinding device for plate glass

Technical Field

The utility model relates to a glass processing equipment field especially relates to a sheet glass's multistation grinder.

Background

The cutting edges of the plate glass need to be ground after being cut, so that the plate glass is convenient to mount.

Disclosure of Invention

An object of the utility model is to provide a sheet glass's multistation grinder specifically lies in providing a multistation grinder that machining efficiency is high.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a sheet glass's multistation grinder, includes glass transport mechanism and grinding mechanism, and glass transport mechanism top is provided with fixed frame, grinding mechanism includes left side grinding head, right side grinding head and first horizontal grinding head, the left side grinding head sets up in the left side of glass transport mechanism middle-end through fixed frame, and the right side grinding head sets up in the right side of glass transport mechanism middle-end through fixed frame, and first horizontal grinding head is connected by a horizontal actuating mechanism drive, and a horizontal actuating mechanism sets up in fixed frame.

Furthermore, the grinding mechanism also comprises a second transverse grinding head, the second transverse grinding head is in driving connection with a second transverse driving mechanism, and the second transverse driving mechanism is arranged on the fixed rack.

Furthermore, the left grinding head is connected to the fixed frame through a left vertical driving mechanism, the right grinding head is connected to the fixed frame through a right vertical driving mechanism, the first transverse driving mechanism is connected to the fixed frame through a first vertical driving mechanism, and the second transverse driving mechanism is connected to the fixed frame through a second vertical driving mechanism.

Specifically, the second vertical driving mechanism is connected with the fixed frame through a sliding block and a sliding chute, the sliding block is fixedly connected with the second vertical driving mechanism, the sliding chute is fixedly arranged on the fixed frame, and the direction of the sliding chute is consistent with the direction of the glass transmission mechanism for transmitting the glass.

Further, glass transmission device includes a plurality of equidistant distribution's driving roller, and the driving roller at glass transmission device both ends is the initiative driving roller, and all the other driven driving rollers that are provided with the drive belt on the driving roller, and the drive belt parcel is connected on the driving roller and with the initiative driving roller drive at glass transmission device both ends.

Specifically, the transmission belt is made of a rubber material.

The utility model has the advantages that: the glass conveying mechanism is provided with the left grinding head, the right grinding head and the transverse grinding head to grind the edge of the glass, so that the efficiency of grinding the edge of the glass can be greatly improved, the control of an operator is facilitated, and the processing quality is improved; and meanwhile, two transverse grinding heads are adopted, so that the grinding efficiency is further improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the polishing apparatus according to the embodiment.

Detailed Description

Example 1: referring to fig. 1, a multi-station grinding device for plate glass comprises a glass conveying mechanism 1 and a grinding mechanism, wherein a fixed frame 3 is arranged above the glass conveying mechanism 1, the grinding mechanism comprises a left grinding head 21, a right grinding head 22 and a first transverse grinding head 23, the left grinding head 21 is arranged on the left side of the middle end of the glass conveying mechanism 1 through the fixed frame 3, the right grinding head 22 is arranged on the right side of the middle end of the glass conveying mechanism 1 through the fixed frame 3, the first transverse grinding head 23 is in driving connection with a first transverse driving mechanism 231, and the first transverse driving mechanism 231 is arranged on the fixed frame 3.

In this embodiment, the glass conveying mechanism 1 is used for conveying glass to move, so that the left grinding head 21 and the right grinding head 22 can grind the left and right sides of the glass on the glass conveying mechanism 1, the first transverse grinding head 23 grinds the front and back ends of the glass, the first transverse grinding head 23 is driven by the first transverse driving mechanism 231 to move left and right, so as to grind the front and back ends of the glass, specifically, after the glass is conveyed from the glass conveying mechanism 1 to the front end and reaches the first transverse grinding head 23, the glass conveying mechanism 1 stops, the first transverse grinding head 23 and the first transverse driving mechanism 231 are simultaneously started, so that the first transverse grinding head 23 moves left and right to grind the front end of the glass, after the front end is ground, the glass conveying mechanism 1 starts to convey the glass again to move forward, and the left grinding head 21 and the right grinding head 22 are opened simultaneously, and (2) grinding the left side and the right side of the moving glass, stopping the glass conveying mechanism 1, the left grinding head 21 and the right grinding head 22 after the glass moves to the rear end and reaches the first transverse grinding head 23, restarting the first transverse grinding head 23 and the first transverse driving mechanism 231 to grind the rear end of the glass, restarting the glass conveying mechanism 1, the left grinding head 21 and the right grinding head 22 to grind the left side and the right side of the glass after the rear end is ground, and finishing the grinding of the four edges of the glass after the glass leaves the left grinding head 21 and the right grinding head 22.

Further, the polishing mechanism further includes a second lateral polishing head 24, the second lateral polishing head 24 is driven and connected by a second lateral driving mechanism 241, and the second lateral driving mechanism 241 is disposed on the fixed frame 3.

In a further embodiment, the second transverse polishing head 24 is provided on the fixed frame 3, and can polish both front and rear ends of the glass simultaneously in cooperation with the first transverse polishing head 23, and the second transverse polishing head 24 is driven to move left and right by the second transverse driving mechanism 241 to polish the glass, similarly to the first transverse polishing head 23. When the glass is ground, the front end of the glass conveyed by the glass conveying mechanism 1 passes through the first transverse grinding head 23 and reaches the left side grinding head 21 and the right side grinding head 22, the left side grinding head 21 and the right side grinding head 22 are started to grind the left and right sides of the glass, when the front end of the glass reaches the second transverse grinding head 24 and the rear end of the glass reaches the position of the first transverse grinding head 23, the glass conveying mechanism 1, the left side grinding head 21 and the right side grinding head 22 are stopped, the first transverse grinding head 23, the first transverse driving mechanism 231, the second transverse grinding head 24 and the second transverse driving mechanism 241 are started to grind the front and rear ends of the glass, after the grinding is finished, the first transverse grinding head 23 and the second transverse grinding head 24 are stopped, the glass conveying mechanism 1, the left side grinding head 21 and the right side grinding head 22 are started again to continue to grind the left, the four edges of the glass are ground when the rear end of the glass leaves the left grinding head 21 and the right grinding head 22, and the front end and the rear end of the glass are ground simultaneously, so that the time for grinding the glass can be further reduced, and the processing efficiency is improved. Wherein, the first transverse driving mechanism 231 and the second transverse driving mechanism 241 can adopt a screw rod driving structure.

Further, the left polishing head 21 is connected to the fixed frame 3 by a left vertical driving mechanism 41, the right polishing head 22 is connected to the fixed frame 3 by a right vertical driving mechanism 42, the first lateral driving mechanism 231 is connected to the fixed frame 3 by a first vertical driving mechanism 43, and the second lateral driving mechanism 241 is connected to the fixed frame 3 by a second vertical driving mechanism 44.

In order to prevent the glass from being rubbed by the left polishing head 21, the right polishing head 22, the first lateral polishing head 23, or the second lateral polishing head 24 during the transportation, the left polishing head 21, the right polishing head 22, the first lateral polishing head 23, and the second lateral polishing head 24 may be driven up and down by the left vertical driving mechanism 41, the right vertical driving mechanism 42, the first vertical driving mechanism 43, and the second vertical driving mechanism 44, so that whether the four polishing heads contact the glass or not may be controlled. The left vertical driving mechanism 41, the right vertical driving mechanism 42, the first vertical driving mechanism 43, and the second vertical driving mechanism 44 may be linear driving mechanisms such as a driving cylinder or an electric cylinder, and are not limited herein.

Further, the second vertical driving mechanism 44 is connected to the fixed frame 3 through a sliding block 51 and a sliding chute 52, the sliding block 51 is fixedly connected to the second vertical driving mechanism 44, the sliding chute 52 is fixedly disposed on the fixed frame 3, and the direction of the sliding chute 52 is the same as the direction of glass conveying by the glass conveying mechanism 1. Since the length of the glass often varies, the second vertical driving mechanism 44 is connected to the fixed frame 3 via the slide block 51 and the slide groove 52, and the distance between the second lateral grinding head 24 and the first lateral grinding head 23 can be adjusted according to the length of the glass.

Specifically, glass transmission device 1 includes a plurality of equidistant distribution's driving roller, and one of them end driving roller of glass transmission device 1 is initiative driving roller 11, and all the other driven driving rollers 12 are provided with drive belt 13 on the driving roller, and drive belt 13 parcel is on the driving roller and is connected with initiative driving roller 11 drive. The transmission belt 13 is made of a rubber material. Drive belt 13 through initiative driving roller 11 and remove and realize the transmission to glass, simultaneously, but driven driving roller 12 free rotation and provide supporting role to driving belt 13, improve glass transmission's stability. Meanwhile, the transmission belt 13 is made of rubber materials, so that the friction force between the transmission belt 13 and the glass can be improved, the glass is prevented from shifting in the grinding process, and the grinding quality of the glass edge is improved.

Of course, the above is only the preferred embodiment of the present invention, and the application range of the present invention is not limited thereto, so all the equivalent changes made in the principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a sheet glass's multistation grinder which characterized in that: including glass transport mechanism and grinding mechanism, glass transport mechanism top is provided with fixed frame, grinding mechanism includes left side grinding head, right side grinding head and first horizontal grinding head, the left side grinding head sets up in the left side of glass transport mechanism middle-end through fixed frame, and the right side grinding head sets up in the right side of glass transport mechanism middle-end through fixed frame, and first horizontal grinding head is connected by a horizontal actuating mechanism drive, and a horizontal actuating mechanism sets up in fixed frame.

2. The apparatus for grinding a sheet glass in multiple stations as claimed in claim 1, wherein: the grinding mechanism further comprises a second transverse grinding head, the second transverse grinding head is in driving connection with a second transverse driving mechanism, and the second transverse driving mechanism is arranged on the fixed rack.

3. The apparatus for grinding a sheet glass in multiple stations as claimed in claim 2, wherein: the left grinding head is connected to the fixed rack through a left vertical driving mechanism, the right grinding head is connected to the fixed rack through a right vertical driving mechanism, the first transverse driving mechanism is connected to the fixed rack through the first vertical driving mechanism, and the second transverse driving mechanism is connected to the fixed rack through the second vertical driving mechanism.

4. The apparatus for grinding a sheet glass in multiple stations as claimed in claim 3, wherein: the second vertical driving mechanism is connected with the fixed rack through a sliding block and a sliding chute, the sliding block is fixedly connected with the second vertical driving mechanism, the sliding chute is fixedly arranged on the fixed rack, and the direction of the sliding chute is consistent with the direction of the glass transmission mechanism for transmitting the glass.

5. The apparatus for grinding a sheet glass in multiple stations as claimed in any one of claims 1 to 4, wherein: the glass transmission mechanism comprises a plurality of transmission rollers which are distributed at equal intervals, the transmission rollers at two ends of the glass transmission mechanism are driving transmission rollers, the rest transmission rollers are driven transmission rollers, a transmission belt is arranged on the transmission rollers, and the transmission belt is wrapped on the transmission rollers and is in driving connection with the driving transmission rollers at two ends of the glass transmission mechanism.

6. The apparatus for grinding a sheet glass in multiple stations as claimed in claim 5, wherein: the transmission belt is made of rubber materials.

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